Data flow transmission method, device, and system

ABSTRACT

The present invention relates to the communications field, and discloses a data flow transmission method, a device, and a system, so as to resolve a problem of resource waste caused when a relay user equipment provides a relay service for a remote user equipment. A specific solution is as follows: A first network device triggers a first relay user equipment to establish a common data flow bearer with a second network device, and the first network device sends an identifier of a common data flow to a remote user equipment in a first group before or after the first network device triggers the first relay user equipment to establish the common data flow bearer with the second network device. The present invention is applied to data flow transmission.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of International Application No.PCT/CN2015/071041, filed on Jan. 19, 2015, the disclosure of which ishereby incorporated by reference in its entirety.

TECHNICAL FIELD

The present invention relates to the communications field, and inparticular, to a data flow transmission method, a device, and a system.

BACKGROUND

In a wireless communications network, when a user equipment is locatedin network coverage, the user equipment may directly establish aconnection to and communicate with a network side. However, when theuser equipment is located outside the network coverage, the userequipment cannot directly establish a connection to the network side.The user equipment located outside the network coverage may be referredto as a remote user equipment. In the prior art, the remote userequipment may establish a connection to the network side by using arelay user equipment located in the network coverage.

Specifically, the remote user equipment may transmit data to the networkside by using the relay user equipment in a unicast transmission manneror a multicast transmission manner. In a unicast transmission manner, arelay user equipment may provide services for multiple remote userequipments. When content of data sent by the multiple remote userequipments is the same, same data is repeatedly transmitted multipletimes between the relay user equipment and a network side, therebycausing resource waste. In a multicast transmission manner, multiplerelay user equipments provide relay services. However, if there are fewrelay user equipments, that is, there are few user equipments that aredirectly connected to a base station, in this case, if the base stationstill transmits data in a multicast mode, only the few relay userequipments directly receive data from a network in actuality, and aremote user equipment still needs to obtain data by using a relay userequipment. When the base station transmits data in a multicast mode,signal strength needs to ensure that farthest user equipment in coveragecan receive data. Therefore, an effect of broadcast transmission inwhich the base station transmits data by using relatively large power isactually similar to that of unicast transmission, thereby increasingpower consumption of the base station, and causing resource waste.

SUMMARY

Embodiments of the present invention provide a data flow transmissionmethod, a device, and a system, so as to resolve a problem of resourcewaste caused when a relay user equipment provides a relay service for aremote user equipment.

To achieve the foregoing objective, the embodiments of the presentinvention use the following technical solutions.

According to a first aspect, a data flow transmission method isprovided, is applied to a wireless network system, and includes:

triggering, by a first network device, a first relay user equipment toestablish a common data flow bearer with a second network device, wherethe common data flow bearer is used to carry a data flow transmittedfrom the second network device to a remote user equipment in a firstgroup, the remote user equipment in the first group is connected to thesecond network device by using the first relay user equipment, and thefirst group includes at least two remote user equipments; and

sending, by the first network device, an identifier of a common dataflow to the a remote user equipment in the first group by using thefirst relay user equipment, where the identifier of the common data flowis used to instruct the remote user equipment in the first group toreceive data of the common data flow.

With reference to the first aspect, in a first possible implementationof the first aspect, before the triggering, by a first network device, afirst relay user equipment to establish a common data flow bearer with asecond network device, the method further includes:

obtaining, by the first network device, position information of a userequipment for which the first network device provides a service;

determining, by the first network device, a quantity of user equipmentsin wireless network coverage according to the position information ofthe user equipment for which the first network device provides aservice; and

if the quantity of user equipments in the wireless network coverage isgreater than or equal to a first threshold, triggering, by the firstnetwork device, the first relay user equipment to establish a multimediabroadcast/multicast service MBMS bearer with the second network device,and sending a TMGI to the first relay user equipment.

With reference to the first possible implementation of the first aspect,in a second possible implementation of the first aspect, the methodfurther includes:

if the quantity of user equipments in the wireless network coverage isless than the first threshold, determining, by the first network deviceaccording to the position information of the user equipment for whichthe first network device provides a service, a quantity of remote userequipments connected to the first relay user equipment; and

the triggering, by a first network device, a first relay user equipmentto establish a common data flow bearer with a second network deviceincludes:

when the quantity of remote user equipments connected to the first relayuser equipment is greater than or equal to a second threshold,triggering, by the first network device, the first relay user equipmentto establish the common data flow bearer with the second network device.

With reference to the first possible implementation of the first aspector the second possible implementation of the first aspect, in a thirdpossible implementation of the first aspect,

position information of i^(th) user equipment in user equipments forwhich the first network device provides a service includes at least oneof a cell identity ID of a cell to which a relay user equipmentconnected to the i^(th) user equipment belongs, a data link layer ID ofa relay user equipment connected to the i^(th) user equipment, or anInternet Protocol IP address of the i^(th) user equipment, where i is aninteger greater than or equal to 1.

With reference to any one of the first aspect, or the first to the thirdpossible implementations of the first aspect, in a fourth possibleimplementation of the first aspect, before the sending, by the firstnetwork device, an identifier of a common data flow to the remote userequipment in the first group, the method further includes:

receiving, by the first network device, the identifier of the commondata flow sent by the first relay user equipment.

With reference to any one of the first aspect, or the first to thefourth possible implementations of the first aspect, in a fifth possibleimplementation of the first aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

According to a second aspect, a data flow transmission method isprovided, is applied to a wireless network system, and includes:

when a first network device triggers a first relay user equipment toestablish a common data flow bearer with a second network device,establishing, by the first relay user equipment, the common data flowbearer with the second network device, where the common data flow beareris used to carry a data flow transmitted from the second network deviceto a remote user equipment in a first group, the remote user equipmentin the first group is connected to the second network device by usingthe first relay user equipment, and the first group includes at leasttwo remote user equipments; and

obtaining, by the first relay user equipment, an identifier of a commondata flow before or after the first relay user equipment establishes thecommon data flow bearer with the second network device, where theidentifier of the common data flow is used to instruct the first relayuser equipment to send data of the common data flow to the remote userequipment in the first group.

With reference to the second aspect, in a first possible implementationof the second aspect, before the establishing, by the first relay userequipment, the common data flow bearer with the second network device,the method further includes:

sending, by the first relay user equipment, position information of theremote user equipment to the remote user equipment, where the remoteuser equipment is connected to the second network device by using thefirst relay user equipment.

With reference to the first possible implementation of the secondaspect, in a second possible implementation of the second aspect,

position information of n^(th) remote user equipment in the remote userequipments includes at least one of a cell identity ID of a cell towhich the first relay user equipment belongs, a data link layer ID ofthe first relay user equipment, or an Internet Protocol IP address ofthe n^(th) remote user equipment, where n is an integer greater than orequal to 1.

With reference to the second aspect, in a third possible implementationof the second aspect, the method further includes:

when the first network device triggers the first relay user equipment toestablish a multimedia broadcast/multicast service MBMS bearer with thesecond network device, establishing, by the first relay user equipment,the MBMS bearer with the second network device, and receiving a TMGIsent by the first network device.

With reference to any one of the second aspect, or the first to thethird possible implementations of the second aspect, in a fourthpossible implementation of the second aspect, the obtaining, by thefirst relay user equipment, an identifier of a common data flowincludes:

obtaining, by the first relay user equipment, the identifier of thecommon data flow sent by the remote user equipment in the first group.

With reference to any one of the second aspect, or the first to thethird possible implementations of the second aspect, in a fifth possibleimplementation of the second aspect, the method further includes:

sending, by the first relay user equipment, the identifier of the commondata flow to the first network device.

With reference to any one of the second aspect, or the first to thefifth possible implementations of the second aspect, in a sixth possibleimplementation of the second aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

According to a third aspect, a data flow transmission method isprovided, is applied to a wireless network system, and includes:

obtaining, by the first network device, position information of a userequipment for which the first network device provides a service; and

triggering, by the first network device when determining, according tothe position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service meets a multimediabroadcast/multicast service MBMS transmission condition, the first relayuser equipment to establish an MBMS bearer with the second networkdevice.

With reference to the third aspect, in a first possible implementationof the third aspect, the triggering, by the first network device whendetermining, according to the position information of the user equipmentfor which the first network device provides a service, that the userequipment for which the first network device provides a service meets amultimedia broadcast/multicast service MBMS transmission condition, thefirst relay user equipment to establish an MBMS bearer with the secondnetwork device includes:

determining, by the first network device, a quantity of user equipmentsin wireless network coverage according to the position information ofthe user equipment for which the first network device provides aservice; and

if the quantity of user equipments in the wireless network coverage isgreater than or equal to a first threshold, triggering, by the firstnetwork device, the first relay user equipment to establish the MBMSbearer with the second network device.

With reference to the third aspect, in a second possible implementationof the third aspect, the method further includes:

when the first network device determines, according to the positioninformation of the user equipment for which the first network deviceprovides a service, that the user equipment for which the first networkdevice provides a service does not meet the multimediabroadcast/multicast service MBMS transmission condition, triggering, bythe first network device, the first relay user equipment to establish acommon data flow bearer with the second network device, where the commondata flow bearer is used to carry a data flow transmitted from thesecond network device to a remote user equipment in a first group, theremote user equipment in the first group is connected to the secondnetwork device by using the first relay user equipment, and the firstgroup includes at least two remote user equipments.

With reference to the second possible implementation of the thirdaspect, in a third possible implementation of the third aspect, themethod further includes:

sending, by the first network device, an identifier of a common dataflow to the remote user equipment in the first group when the firstnetwork device determines, according to the position information of theuser equipment for which the first network device provides a service,that the user equipment for which the first network device provides aservice does not meet the multimedia broadcast/multicast service MBMStransmission condition, where the identifier of the common data flow isused to instruct the remote user equipment in the first group to receivethe common data flow.

With reference to the third possible implementation of the third aspect,in a fourth possible implementation of the third aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

With reference to any one of the third aspect, or the first to thefourth possible implementations of the third aspect, in a fifth possibleimplementation of the third aspect, after the triggering, by the firstnetwork device, the first relay user equipment to establish a multimediabroadcast/multicast service MBMS bearer with the second network device,the method further includes:

sending, by the first network device, a TMGI to the first relay userequipment.

With reference to any one of the third aspect, or the first to the fifthpossible implementations of the third aspect, in a sixth possibleimplementation of the third aspect,

position information of i^(th) user equipment in user equipments forwhich the first network device provides a service includes at least oneof a cell identity ID of a cell to which a relay user equipmentconnected to the i^(th) user equipment belongs, a data link layer ID ofa relay user equipment connected to the i^(th) user equipment, or anInternet Protocol IP address of the i^(th) user equipment.

According to a fourth aspect, a first network device is provided, isapplied to a wireless network system, and includes:

a data flow unit, configured to trigger a first relay user equipment toestablish a common data flow bearer with a second network device, wherethe common data flow bearer is used to carry a data flow transmittedfrom the second network device to a remote user equipment in a firstgroup, the remote user equipment in the first group is connected to thesecond network device by using the first relay user equipment, and thefirst group includes at least two remote user equipments; and

a sending unit, configured to send an identifier of a common data flowto the remote user equipment in the first group by using the first relayuser equipment, where the identifier of the common data flow is used toinstruct the remote user equipment in the first group to receive data ofthe common data flow.

With reference to the fourth aspect, in a first possible implementationof the fourth aspect,

the first network device further includes an obtaining unit, configuredto obtain position information of a user equipment for which the firstnetwork device provides a service;

the data flow unit is further configured to: determine a quantity ofuser equipments in wireless network coverage according to the positioninformation that is of the user equipment for which the first networkdevice provides a service and that is obtained by the obtaining unit,and if the quantity of user equipments in the wireless network coverageis greater than or equal to a first threshold, trigger the first relayuser equipment to establish a multimedia broadcast/multicast serviceMBMS bearer with the second network device; and

the sending unit is further configured to send a TMGI to the first relayuser equipment.

With reference to the first possible implementation of the fourthaspect, in a second possible implementation of the fourth aspect,

the data flow unit is further configured to: when the quantity of userequipments in the wireless network coverage is less than the firstthreshold, determine, according to the position information of the userequipment for which the first network device provides a service, aquantity of remote user equipments connected to the first relay userequipment, and when the quantity of remote user equipments connected tothe first relay user equipment is greater than or equal to a secondthreshold, trigger the first relay user equipment to establish thecommon data flow bearer with the second network device.

With reference to the first possible implementation of the fourth aspector the second possible implementation of the fourth aspect, in a thirdpossible implementation of the fourth aspect,

position information of i^(th) user equipment in user equipments forwhich the first network device provides a service includes at least oneof a cell identity ID of a cell to which a relay user equipmentconnected to the i^(th) user equipment belongs, a data link layer ID ofa relay user equipment connected to the i^(th) user equipment, or anInternet Protocol IP address of the i^(th) user equipment, where i is aninteger greater than or equal to 1.

With reference to any one of the fourth aspect, or the first to thethird possible implementations of the fourth aspect, in a fourthpossible implementation of the fourth aspect,

the first network device further includes a receiving unit, configuredto receive the identifier of the common data flow sent by the firstrelay user equipment.

With reference to any one of the fourth aspect, or the first to thefourth possible implementations of the fourth aspect, in a fifthpossible implementation of the fourth aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

According to a fifth aspect, a first relay user equipment is provided,including:

a bearer unit, configured to: when a first network device triggers thefirst relay user equipment to establish a common data flow bearer with asecond network device, establish the common data flow bearer with thesecond network device, where the common data flow bearer is used tocarry a data flow transmitted from the second network device to a remoteuser equipment in a first group, the remote user equipment in the firstgroup is connected to the second network device by using the first relayuser equipment, and the first group includes at least two remote userequipments; and

an obtaining unit, configured to obtain an identifier of a common dataflow before or after the first relay user equipment establishes thecommon data flow bearer with the second network device, where theidentifier of the common data flow is used to instruct the first relayuser equipment to send data of the common data flow to the remote userequipment in the first group.

With reference to the fifth aspect, in a first possible implementationof the fifth aspect,

the first relay user equipment further includes a first sending unit,configured to send position information of the remote user equipment tothe remote user equipment, where the remote user equipment is connectedto the second network device by using the first relay user equipment.

With reference to the first possible implementation of the fifth aspect,in a second possible implementation of the fifth aspect,

position information of n^(th) remote user equipment in the remote userequipments includes at least one of a cell identity ID of a cell towhich the first relay user equipment belongs, a data link layer ID ofthe first relay user equipment, or an Internet Protocol IP address ofthe n^(th) remote user equipment, where n is an integer greater than orequal to 1.

With reference to the fifth aspect, in a third possible implementationof the fifth aspect,

the bearer unit is further configured to: when the first network devicetriggers the first relay user equipment to establish a multimediabroadcast/multicast service MBMS bearer with the second network device,establish the MBMS bearer with the second network device; and

the first relay user equipment further includes a receiving unit,configured to receive a TMGI sent by the first network device.

With reference to any one of the fifth aspect, or the first to the thirdpossible implementations of the fifth aspect, in a fourth possibleimplementation of the fifth aspect,

the obtaining unit is specifically configured to obtain the identifierof the common data flow sent by the remote user equipment in the firstgroup.

With reference to any one of the fifth aspect, or the first to the thirdpossible implementations of the fifth aspect, in a fifth possibleimplementation of the fifth aspect,

the first relay user equipment further includes a second sending unit,configured to send the identifier of the common data flow to the firstnetwork device.

With reference to any one of the fifth aspect, or the first to the fifthpossible implementations of the fifth aspect, in a sixth possibleimplementation of the fifth aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

According to a sixth aspect, a first network device is provided, isapplied to a wireless network system, and includes:

an obtaining unit, configured to obtain position information of a userequipment for which the first network device provides a service; and

a data flow unit, configured to: when it is determined, according to theposition information that is of the user equipment for which the firstnetwork device provides a service and that is obtained by the obtainingunit, that the user equipment for which the first network deviceprovides a service meets a multimedia broadcast/multicast service MBMStransmission condition, trigger the first relay user equipment toestablish an MBMS bearer with the second network device.

With reference to the sixth aspect, in a first possible implementationof the sixth aspect,

the data flow unit is specifically configured to: determine a quantityof user equipments in wireless network coverage according to theposition information of the user equipment for which the first networkdevice provides a service, and if the quantity of user equipments in thewireless network coverage is greater than or equal to a first threshold,trigger the first relay user equipment to establish the MBMS bearer withthe second network device.

With reference to the sixth aspect, in a second possible implementationof the sixth aspect,

the data flow unit is further configured to: when it is determined,according to the position information of the user equipment for whichthe first network device provides a service, that the user equipment forwhich the first network device provides a service does not meet themultimedia broadcast/multicast service MBMS transmission condition,trigger the first relay user equipment to establish a common data flowbearer with the second network device, where the common data flow beareris used to carry a data flow transmitted from the second network deviceto a remote user equipment in a first group, the remote user equipmentin the first group is connected to the second network device by usingthe first relay user equipment, and the first group includes at leasttwo remote user equipments.

With reference to the second possible implementation of the sixthaspect, in a third possible implementation of the sixth aspect,

the first network device further includes a first sending unit,configured to send an identifier of a common data flow to the remoteuser equipment in the first group when it is determined, according tothe position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service does not meet the multimediabroadcast/multicast service MBMS transmission condition, where theidentifier of the common data flow is used to instruct the remote userequipment in the first group to receive the common data flow.

With reference to the third possible implementation of the sixth aspect,in a fourth possible implementation of the sixth aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

With reference to any one of the sixth aspect, or the first to thefourth possible implementations of the sixth aspect, in a fifth possibleimplementation of the sixth aspect,

the first network device further includes a second sending unit,configured to send a TMGI to the first relay user equipment.

With reference to any one of the sixth aspect, or the first to the fifthpossible implementations of the sixth aspect, in a sixth possibleimplementation of the sixth aspect,

position information of i^(th) user equipment in user equipments forwhich the first network device provides a service includes at least oneof a cell identity ID of a cell to which a relay user equipmentconnected to the i^(th) user equipment belongs, a data link layer ID ofa relay user equipment connected to the i^(th) user equipment, or anInternet Protocol IP address of the i^(th) user equipment.

According to a seventh aspect, a first network device is provided,including: a processor, a memory, a bus, and a transmitter, where theprocessor, the memory, and the transmitter are connected to each otherby using the bus;

the processor is configured to trigger a first relay user equipment toestablish a common data flow bearer with a second network device, wherethe common data flow bearer is used to carry a data flow transmittedfrom the second network device to a remote user equipment in a firstgroup, the remote user equipment in the first group is connected to thesecond network device by using the first relay user equipment, and thefirst group includes at least two remote user equipments; and

the transmitter is configured to send an identifier of a common dataflow to the remote user equipment in the first group by using the firstrelay user equipment, where the identifier of the common data flow isused to instruct the remote user equipment in the first group to receivedata of a common data flow.

With reference to the seventh aspect, in a first possible implementationof the seventh aspect,

the processor is further configured to: obtain position information of auser equipment for which the first network device provides a service,determine a quantity of user equipments in wireless network coverageaccording to the position information of the user equipment for whichthe first network device provides a service, and if the quantity of userequipments in the wireless network coverage is greater than or equal toa first threshold, trigger the first relay user equipment to establish amultimedia broadcast/multicast service MBMS bearer with the secondnetwork device; and

the transmitter is further configured to send a TMGI to the first relayuser equipment.

With reference to the first possible implementation of the seventhaspect, in a second possible implementation of the seventh aspect,

the processor is further configured to: when the quantity of userequipments in the wireless network coverage is less than the firstthreshold, determine, according to the position information of the userequipment for which the first network device provides a service, aquantity of remote user equipments connected to the first relay userequipment, and when the quantity of remote user equipments connected tothe first relay user equipment is greater than or equal to a secondthreshold, trigger the first relay user equipment to establish thecommon data flow bearer with the second network device.

With reference to the first possible implementation of the seventhaspect or the second possible implementation of the seventh aspect, in athird possible implementation of the seventh aspect,

position information of i^(th) user equipment in user equipments forwhich the first network device provides a service includes at least oneof a cell identity ID of a cell to which a relay user equipmentconnected to the i^(th) user equipment belongs, a data link layer ID ofa relay user equipment connected to the i^(th) user equipment, or anInternet Protocol IP address of the i^(th) user equipment, where i is aninteger greater than or equal to 1.

With reference to any one of the seventh aspect, or the first to thethird possible implementations of the seventh aspect, in a fourthpossible implementation of the seventh aspect,

the first network device further includes a receiver, configured toreceive the identifier of the common data flow sent by the first relayuser equipment.

With reference to any one of the seventh aspect, or the first to thefourth possible implementations of the seventh aspect, in a fifthpossible implementation of the seventh aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

According to an eighth aspect, a first relay user equipment is provided,including: a processor, a memory, and a bus, where the processor and thememory are connected to each other by using the bus;

the processor is configured to: when a first network device triggers thefirst relay user equipment to establish a common data flow bearer with asecond network device, establish the common data flow bearer with thesecond network device, where the common data flow bearer is used tocarry a data flow transmitted from the second network device to a remoteuser equipment in a first group, the remote user equipment in the firstgroup is connected to the second network device by using the first relayuser equipment, and the first group includes at least two remote userequipments; and

the processor is further configured to obtain an identifier of a commondata flow before or after the first relay user equipment establishes thecommon data flow bearer with the second network device, where theidentifier of the common data flow is used to instruct the first relayuser equipment to send data of the common data flow to the remote userequipment in the first group.

With reference to the eighth aspect, in a first possible implementationof the eighth aspect,

the first relay user equipment further includes a first transmitter,configured to send position information of the remote user equipment tothe remote user equipment, where the remote user equipment is connectedto the second network device by using the first relay user equipment.

With reference to the first possible implementation of the eighthaspect, in a second possible implementation of the eighth aspect,

position information of n^(th) remote user equipment in the remote userequipments includes at least one of a cell identity ID of a cell towhich the first relay user equipment belongs, a data link layer ID ofthe first relay user equipment, or an Internet Protocol IP address ofthe n^(th) remote user equipment, where n is an integer greater than orequal to 1.

With reference to the eighth aspect, in a third possible implementationof the eighth aspect,

the processor is further configured to: when the first network devicetriggers the first relay user equipment to establish a multimediabroadcast/multicast service MBMS bearer with the second network device,establish the MBMS bearer with the second network device; and

the first relay user equipment further includes a receiver, configuredto receive a TMGI sent by the first network device.

With reference to any one of the eighth aspect, or the first to thethird possible implementations of the eighth aspect, in a fourthpossible implementation of the eighth aspect,

the processor is specifically configured to obtain the identifier of thecommon data flow sent by the remote user equipment in the first group.

With reference to any one of the eighth aspect, or the first to thethird possible implementations of the eighth aspect, in a fifth possibleimplementation of the eighth aspect,

the first relay user equipment further includes a second transmitter,configured to send the identifier of the common data flow to the firstnetwork device.

With reference to any one of the eighth aspect, or the first to thefifth possible implementations of the eighth aspect, in a sixth possibleimplementation of the eighth aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

According to a ninth aspect, a first network device is provided,including: a processor, a memory, and a bus, where the processor and thememory are connected to each other by using the bus;

the processor is configured to: obtain position information of a userequipment for which the first network device provides a service, andwhen it is determined, according to the position information of the userequipment for which the first network device provides a service, thatthe user equipment for which the first network device provides a servicemeets a multimedia broadcast/multicast service MBMS transmissioncondition, trigger the first relay user equipment to establish an MBMSbearer with the second network device.

With reference to the ninth aspect, in a first possible implementationof the ninth aspect,

the processor is specifically configured to: determine a quantity ofuser equipments in wireless network coverage according to the positioninformation of the user equipment for which the first network deviceprovides a service, and if the quantity of user equipments in thewireless network coverage is greater than or equal to a first threshold,trigger the first relay user equipment to establish the MBMS bearer withthe second network device.

With reference to the ninth aspect, in a second possible implementationof the ninth aspect,

the processor is further configured to: when it is determined, accordingto the position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service does not meet the multimediabroadcast/multicast service MBMS transmission condition, trigger thefirst relay user equipment to establish a common data flow bearer withthe second network device, where the common data flow bearer is used tocarry a data flow transmitted from the second network device to a remoteuser equipment in a first group, the remote user equipment in the firstgroup is connected to the second network device by using the first relayuser equipment, and the first group includes at least two remote userequipments.

With reference to the second possible implementation of the ninthaspect, in a third possible implementation of the ninth aspect,

the first network device further includes a first transmitter,configured to send an identifier of a common data flow to the remoteuser equipment in the first group when it is determined, according tothe position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service does not meet the multimediabroadcast/multicast service MBMS transmission condition, where theidentifier of the common data flow is used to instruct the remote userequipment in the first group to receive the common data flow.

With reference to the third possible implementation of the ninth aspect,in a fourth possible implementation of the ninth aspect,

the identifier of the common data flow includes an IP address of adownlink data receive end; and

the identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

With reference to any one of the ninth aspect, or the first to thefourth possible implementations of the ninth aspect, in a fifth possibleimplementation of the ninth aspect,

the first network device further includes a second transmitter,configured to send a TMGI to the first relay user equipment.

With reference to any one of the ninth aspect, or the first to the fifthpossible implementations of the ninth aspect, in a sixth possibleimplementation of the ninth aspect,

position information of i^(th) user equipment in user equipments forwhich the first network device provides a service includes at least oneof a cell identity ID of a cell to which a relay user equipmentconnected to the i^(th) user equipment belongs, a data link layer ID ofa relay user equipment connected to the i^(th) user equipment, or anInternet Protocol IP address of the i^(th) user equipment.

According to a tenth aspect, a wireless network system is provided,including a first network device and a first relay user equipment, where

the first network device is the first network device in the fourthaspect or any possible implementation of the fourth aspect, and thefirst relay user equipment is the first relay user equipment in thefifth aspect or any possible implementation of the fifth aspect; or

the first network device is the first network device in the seventhaspect or any possible implementation of the seventh aspect, and thefirst relay user equipment is the first relay user equipment in theeighth aspect or any possible implementation of the eighth aspect.

According to an eleventh aspect, a wireless network system is provided,including a first network device, where

the first network device is the first network device in the sixth aspector any possible implementation of the sixth aspect; or

the first network device is the first network device in the ninth aspector any possible implementation of the ninth aspect.

According to the data flow transmission method, the device, and thesystem provided in the embodiments of the present invention, a firstnetwork device triggers a first relay user equipment to establish acommon data flow bearer with a second network device; the first networkdevice sends an identifier of a common data flow to a remote userequipment in a first group before or after the first network devicetriggers the first relay user equipment to establish the common dataflow bearer with the second network device; and when downlink data isbeing transmitted, the second network device transmits data of a commondata flow to the first relay user equipment, and the first relay userequipment transmits the data of the common data flow to the remote userequipment in the first group. In this way, common data sent to multipleremote user equipments is transmitted only once between the first relayuser equipment and the second network device, thereby resolving aproblem of resource waste caused when a relay user equipment provides arelay service for a remote user equipment.

BRIEF DESCRIPTION OF DRAWINGS

To describe the technical solutions in the embodiments of the presentinvention more clearly, the following briefly describes the accompanyingdrawings required for describing the embodiments. Apparently, theaccompanying drawings in the following description show merely someembodiments of the present invention, and a person of ordinary skill inthe art may still derive other drawings from these accompanying drawingswithout creative efforts.

FIG. 1 is a schematic structural diagram of a wireless network systemaccording to an embodiment of the present invention;

FIG. 2 is a schematic flowchart of a data flow transmission methodaccording to an embodiment of the present invention;

FIG. 3 is a schematic flowchart of a data flow transmission methodaccording to another embodiment of the present invention;

FIG. 4 is a schematic interaction diagram of a data flow transmissionmethod according to still another embodiment of the present invention;

FIG. 5 is a schematic flowchart of another data flow transmission methodaccording to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a first network deviceaccording to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a first relay user equipmentaccording to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of another first network deviceaccording to an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a first network deviceaccording to another embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a first relay userequipment according to another embodiment of the present invention;

FIG. 11 is a schematic structural diagram of another first networkdevice according to another embodiment of the present invention;

FIG. 12 is a schematic structural diagram of a wireless network systemaccording to another embodiment of the present invention; and

FIG. 13 is a schematic structural diagram of a wireless network systemaccording to still another embodiment of the present invention.

DESCRIPTION OF EMBODIMENTS

The following clearly describes the technical solutions in theembodiments of the present invention with reference to the accompanyingdrawings in the embodiments of the present invention. Apparently, thedescribed embodiments are merely some but not all of the embodiments ofthe present invention. All other embodiments obtained by a person ofordinary skill in the art based on the embodiments of the presentinvention without creative efforts shall fall within the protectionscope of the present invention.

An embodiment of the present invention provides a wireless networksystem 10. Referring to FIG. 1, the wireless network system 10 includesan AS (Application Server, application server) 101, a relay userequipment 102, and a remote user equipment 103. Optionally, the wirelessnetwork system 10 may further include a GW (Gate Way, gateway) 104 and aPCRF (Policy And Charging Rules Function, policy and charging rulesfunction) 105. Preferably, the wireless network system 10 may belong toan LTE (Long Term Evolution, Long Term Evolution) system, the AS 101 maybe an MCPTT (Mission Critical push to talk over LTE, mission-criticalpush-to-talk over LTE) AS, and the GW 104 may be a PDN (Public DataNetwork, public data network) GW.

An embodiment of the present invention provides a data flow transmissionmethod. The method is applied to a first network device in a wirelessnetwork system, and is preferably applied to the wireless network systemshown in FIG. 1. The first network device may be the AS 101 in thewireless network system shown in FIG. 1. Referring to FIG. 2, the dataflow transmission method includes the following steps.

201. The first network device triggers a first relay user equipment toestablish a common data flow bearer with a second network device.

The common data flow bearer is used to carry a data flow transmittedfrom the second network device to a remote user equipment in a firstgroup, and the remote user equipment in the first group is connected tothe second network device by using the first relay user equipment. Datacarried on the common data flow bearer is downlink data sent by thefirst network device to the remote user equipment in the first group,that is, all remote user equipments in the first group share the datasent on the common data flow bearer, and need to obtain the downlinkdata from the first relay user equipment. It should be noted that userof the first relay user equipment may be a member in the first group.

Specifically, optionally, the remote user equipment in the first groupmay be user equipment that participates in a group call, may be a memberin a pre-configured group, or may be a member in an ad-hoc group call.

Optionally, the method is applied to the wireless network system 10shown in FIG. 1. The first relay user equipment may be the relay userequipment 102 in the wireless network system shown in FIG. 1, the remoteuser equipment in the first group may be the remote user equipment 103,and the second network device may be the GW 104.

202. The first network device sends an identifier of a common data flowto a remote user equipment in a first group by using the first relayuser equipment.

The first group includes at least two remote user equipments.Specifically, the first network device sends the identifier of thecommon data flow to the remote user equipment in the first group byusing the first relay user equipment before or after the first networkdevice triggers the first relay user equipment to establish the commondata flow bearer with the second network device. The identifier of thecommon data flow is used to instruct the remote user equipment in thefirst group to receive data of the common data flow.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end, and may further include one ormore of a source IP address of the common data flow, a transmit end IPaddress of the common data flow, a destination IP address of the commondata flow, a protocol number of the common data flow, a source port ofthe common data flow, or a destination port of the common data flow.

In addition, optionally, a common data flow identity (flow ID) may befurther used for identifying. Preferably, in an LTE system, the commondata flow identity (flow ID) is an identity that is pre-negotiated bythe first network device and an EPC (Evolved Packet Core, evolved packetcore) and that is dedicatedly used for identifying a downlink commondata flow bearer.

Optionally, the identifier of the common data flow may be determined bythe first relay user equipment, may be determined by the first networkdevice, or may be negotiated by the first network device and the remoteuser equipment.

In this way, when receiving, by using the common data flow bearer, datasent by the second network device, the first relay user equipment sendsthe data to the remote user equipment in the first group. In this case,unlike the prior art in which data for different remote user equipmentsis separately transmitted between the first relay user equipment and thesecond network device, only one piece of data is transmitted between thefirst relay user equipment and the second network device, and this pieceof data is sent to multiple remote user equipments, thereby reducingresources for data transmission between the first relay user equipmentand the second network device.

According to the data flow transmission method provided in thisembodiment of the present invention, a first network device triggers afirst relay user equipment to establish a common data flow bearer with asecond network device; the first network device sends an identifier of acommon data flow to a remote user equipment in a first group before orafter the first network device triggers the first relay user equipmentto establish the common data flow bearer with the second network device;and when downlink data is being transmitted, the second network devicetransmits data of a common data flow to the first relay user equipment,and the first relay user equipment transmits the data of the common dataflow to the remote user equipment in the first group. In this way,common data sent to multiple remote user equipments is transmitted onlyonce between the first relay user equipment and the second networkdevice, thereby resolving a problem of resource waste caused when arelay user equipment provides a relay service for a remote userequipment.

With reference to the embodiment corresponding to FIG. 2, anotherembodiment of the present invention provides a data flow transmissionmethod. The method is applied to a first relay user equipment in awireless network system, and is preferably applied to the wirelessnetwork system shown in FIG. 1. The first relay user equipment may bethe relay user equipment 102 in the wireless network system shown inFIG. 1. Referring to FIG. 3, the data flow transmission method includesthe following steps.

301. The first relay user equipment establishes a common data flowbearer with a second network device.

Specifically, when a first network device triggers the first relay userequipment to establish the common data flow bearer with the secondnetwork device, the first relay user equipment establishes the commondata flow bearer with the second network device.

The common data flow bearer is used to carry a data flow transmittedfrom the second network device to a remote user equipment in a firstgroup, and the remote user equipment in the first group is connected tothe second network device by using the first relay user equipment. Datacarried on the common data flow bearer is downlink data sent by thefirst network device to the remote user equipment in the first group,that is, all remote user equipments in the first group share the datasent on the common data flow bearer, and need to obtain the downlinkdata from the first relay user equipment. It should be noted that thefirst relay user equipment may be a member in the first group.

302. The first relay user equipment obtains an identifier of a commondata flow.

Specifically, the first relay user equipment obtains the identifier ofthe common data flow before or after the first relay user equipmentestablishes the common data flow bearer with the second network device.The identifier of the common data flow is used to instruct the firstrelay user equipment to send, to the remote user equipment in the firstgroup, common data transmitted on the common data flow bearer. The firstgroup includes at least two remote user equipments.

Preferably, an implementation in which the first relay user obtains theidentifier of the common data flow may be: the remote user equipment inthe first group sends the identifier of the common data flow to thefirst relay user equipment, so that the first relay user equipmentsubsequently sends, in a multicast manner or a unicast manner, datareceived on the common data flow to the remote user equipment in thefirst group.

Optionally, the first relay user equipment may directly captureinformation exchanged between the first network device and the remoteuser equipment in the first group, and then determine which user inremote user equipments in the first group needs to receive a data flowcorresponding to the identifier of the common data flow.

Optionally, the first relay user equipment directly receives aninstruction including the identifier of the common data flow from thefirst network device, and the instruction requires the first relay userequipment to subsequently broadcast data corresponding to the identifierof the common data flow.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end, and may further include one ormore of a source IP address of the common data flow, a transmit end IPaddress of the common data flow, a destination IP address of the commondata flow, a protocol number of the common data flow, a source port ofthe common data flow, or a destination port of the common data flow.

In addition, optionally, a common data flow identity (flow ID) may befurther used for identifying. Preferably, in an LTE system, the commondata flow identity (flow ID) is an identity that is pre-negotiated bythe first network device and an EPC (Evolved Packet Core, evolved packetcore) and that is dedicatedly used for identifying a downlink commondata flow bearer.

In this way, according to step 301 and step 302, when receiving, byusing the common data flow bearer, data sent by the second networkdevice, the first relay user equipment sends the data to the remote userequipment in the first group. In this case, unlike the prior art inwhich data for different remote user equipments is separatelytransmitted between the first relay user equipment and the secondnetwork device, only one piece of data is transmitted between the firstrelay user equipment and the second network device, and this piece ofdata is sent to multiple remote user equipments, thereby reducingresources for data transmission between the first relay user equipmentand the second network device.

According to the data flow transmission method provided in thisembodiment of the present invention, a first relay user equipmentestablishes a common data flow bearer with a second network device; thefirst relay user equipment obtains an identifier of a common data flowbefore or after the first relay user equipment establishes the commondata flow bearer with the second network device; and when downlink datais being transmitted, the second network device transmits data of thecommon data flow to the first relay user equipment, and the first relayuser equipment transmits the data of the common data flow to a remoteuser equipment in a first group. In this way, common data sent tomultiple remote user equipments is transmitted only once between thefirst relay user equipment and the second network device, therebyresolving a problem of resource waste caused when a relay user equipmentprovides a relay service for a remote user equipment.

Based on the embodiments corresponding to FIG. 1, FIG. 2, and FIG. 3,still another embodiment of the present invention provides a data flowtransmission method. The method is applied to a wireless network system,and involves a first network device, a first relay user equipment, atleast one remote user equipment, and a second network device. The atleast one remote user equipment accesses the wireless network system byestablishing a connection to the first relay user equipment. Preferably,the method is applied to the wireless network system shown in FIG. 1.The first network device may be the AS 101 in the wireless networksystem shown in FIG. 1, the first relay user equipment may be the relayuser equipment 102 in the wireless network system shown in FIG. 1, theat least one remote user equipment may be the remote user equipment 103in the wireless network system shown in FIG. 1, and the second networkdevice may be the GW 104 in the wireless network system shown in FIG. 1.Referring to FIG. 4, the data flow transmission method provided in thisembodiment includes the following steps.

401. The first relay user equipment establishes a connection to a remoteuser equipment.

The remote user equipment is a remote user equipment connected to thefirst relay user equipment, and there may be multiple remote userequipments.

402. The first relay user equipment sends position information of theremote user equipment to the remote user equipment.

Position information of n^(th) remote user equipment in remote userequipments is used to indicate a position of the n^(th) remote userequipment. In this case, because the first relay user equipment providesrelay services for all the remote user equipments, the positioninformation of the n^(th) remote user equipment in the remote userequipments includes at least one of a cell ID (Identity, identity) of acell to which the first relay user equipment belongs, a data link layerID of the first relay user equipment, or an IP (Internet Protocol,Internet Protocol) address of the n^(th) remote user equipment. Becausethe remote user equipments communicate with the first network device ona network side by sharing a PDN bearer established by the relay userequipment that provides relay services for the remote user equipments,the remote user equipments for which the same relay user equipmentprovides relay services use a same IP address. It may be considered thatsame relay user equipment provides a service for remote user equipmentsthat have a same IP address.

Optionally, when there are multiple relay user equipments in thewireless network system, each relay user equipment sends positioninformation of the remote user equipment connected to the relay userequipment to the remote user equipment for which the relay userequipment provides a service. The position information of the remoteuser equipment may be an identity of a relay user equipment thatprovides a relay service for the remote user equipment. The identity ofthe relay user equipment may be any identity that can uniquely identifythe relay user equipment in the wireless network system, for example, anIMSI (International Mobile Subscriber Identification Number,international mobile subscriber identity), or an IMEI (InternationalMobile Equipment Identity, international mobile equipment identity); ormay be a temporary identity allocated by the network side, for example,a GUTI (Globally Unique Temporary User Equipment Identity, globallyunique temporary user equipment identity), an RNTI (Radio NetworkTemporary Identity, radio network temporary identity), or adirect-communication-related identity that is used for providinginformation about direct communication for a user in an operator networkand that is used for controlling to allocate a logical function to theuser.

Optionally, the position information of the remote user equipmentobtained by the remote user equipment may be sent by the relay userequipment that provides a relay service for the remote user equipment,or may be indirectly obtained in another manner. For example, the remoteuser equipment may obtain, in a relay user equipment discoveryprocedure, the identity of the relay user equipment as the positioninformation of the remote user equipment. In this case, step 402 may notbe performed.

403. The first network device obtains position information of a userequipment for which the first network device provides a service.

The first network device provides a service for at least two userequipments. The position information of the user equipment for which thefirst network device provides a service is used to indicate a positionof the user equipment for which the first network device provides aservice. Preferably, user equipments for which the first network deviceprovides a service may include a remote user equipment, a relay userequipment, and another user equipment in a cellular network. There maybe multiple relay user equipments, and the multiple relay userequipments include the first relay user equipment.

For the remote user equipment in the user equipments for which the firstnetwork device provides a service, position information of i^(th) userequipment in the user equipments for which the first network deviceprovides a service includes at least one of a cell ID of a cell to whicha relay user equipment connected to the i^(th) user equipment belongs, adata link layer ID of a relay user equipment connected to the i^(th)user equipment, or an IP address of the i^(th) user equipment. The firstnetwork device may determine, according to position information of theremote user equipment, a relay user equipment to which each remote userequipment is currently connected, and then determine remote userequipments connected to a same relay user equipment. Preferably, theposition information of the i^(th) user equipment includes the data linklayer ID of the relay user equipment connected to the i^(th) userequipment, and may further include the cell ID of the cell to which therelay user equipment connected to the i^(th) user equipment belongs. Itshould be noted herein that the data link layer ID of the relay userequipment is used only as an example of an implementation, and the relayuser equipment may be uniquely identified by using another identity.Alternatively and preferably, the position information of the i^(th)user equipment includes the IP address of the i^(th) user equipment.

For the relay user equipment in the user equipments for which the firstnetwork device provides a service, the first network device maydetermine a distribution status of the relay user equipment according toposition information of the relay user equipment.

Optionally, for the remote user equipment in the user equipments forwhich the first network device provides a service, the first networkdevice may obtain position information of the remote user equipment inthe following two manners:

In a first manner, the remote user equipment may obtain the positioninformation of the remote user equipment by performing step 401 and step402 by the relay user equipment that provides a relay service for theremote user equipment, and then the relay user equipment reports theposition information of the remote user equipment to the first networkdevice. Specifically, optionally, the relay user equipment may reportthe position information to the first network device by means oftransparent transmission.

In a second manner, the first network device obtains the positioninformation of the remote user equipment by itself. In this case, step401 and step 402 may not be performed.

Specifically, optionally, the first network device may determine,according to an IP address of each remote user equipment, remote userequipments connected to a same relay user equipment. Because the remoteuser equipment communicates with the second network device by performingnetwork address translation (Network Address Translation, networkaddress translation) by the relay user equipment, for a service, an IPaddress of a remote user equipment is actually an IP address of therelay user equipment. Therefore, all remote user equipments thatcommunicate with the first network device by using a same relay userequipment may use a same IP address. The first network device may know,in such a manner, remote user equipments connected to a same relay userequipment.

404. The first network device determines a transmission manner.

Optionally, with reference to step 403, in addition to the positioninformation sent by the remote user equipment, the first network devicemay receive position information (for example, position information ofan LTE cell on which a user equipment currently camps) reported by someother user equipments (a user equipment directly connected to a basestation) in a cellular network.

The first network device determines, according to the positioninformation of the user equipment for which the first network deviceprovides a service, a distribution status of the user equipment forwhich the first network device provides a service, and then determinesthe data transmission manner for sending downlink data to the userequipment. In this case, with reference to step 403, the first networkdevice may perform determining according to a data link layer ID of arelay user equipment or an IP of a user equipment that is included inthe position information of the user equipment for which the firstnetwork device provides a service. If multiple user equipments in theuser equipments for which the first network device provides a serviceuse a same data link layer ID or a same IP, it means that the multipleuser equipments access the wireless network system by using a same relayuser equipment, that is, the multiple user equipments are outsidenetwork coverage. The first network device may determine, according to acell ID, the distribution status of the user equipment for which thefirst network device provides a service. If relatively many userequipments use a same cell ID, it means that user equipments are denselydistributed in an area; or if relatively few user equipments use a samecell ID, it means that user equipments are sparsely distributed in thearea.

Optionally, two modes are enumerated herein for description, andcertainly, it does not mean that the present invention is limited tothis.

A first mode is a multicast mode. The first network device determines aquantity of user equipments in wireless network coverage according tothe position information of the user equipment for which the firstnetwork device provides a service. If the quantity of user equipments inthe wireless network coverage is greater than or equal to a firstthreshold, the first network device determines to perform sending in anMBMS (Multimedia Broadcast Multicast Service, multimediabroadcast/multicast service) mode, that is, the first network devicetriggers the first relay user equipment to establish a multimediabroadcast/multicast service MBMS bearer with the second network device,and sends a TMGI (Temporary Mobile Group Identity, terminal mobile groupidentity) to the first relay user equipment. The TMGI is used toidentify the MBMS bearer. This mode is generally applicable to a case inwhich there are relatively many users (especially users in a cellularnetwork) in an area. It should be noted that if the quantity of userequipments in the wireless network coverage is greater than or equal tothe first threshold, and MBMS transmission is not applicable to thewireless network because of a case such as channel congestion, datatransmission may be performed in a second mode. In this case, in an LTEsystem, the wireless network coverage is coverage of an LTE network. Thewireless network coverage is not specifically limited in the presentinvention. Determining performed based on the first threshold is merelyan example solution of the present invention, and it does not mean thatthe present invention is limited to this.

A second mode is a unicast mode. If the first network device determinesthat a quantity of user equipments in wireless network coverage is lessthan a first threshold, the first network device determines a quantityof remote user equipments connected to the first relay user equipment.When the quantity of remote user equipments connected to the first relayuser equipment is greater than or equal to a second threshold, the firstnetwork device determines to send data in a unicast mode, that is, thefirst network device triggers the first relay user equipment toestablish a common data flow bearer with the second network device. Thecommon data flow bearer is used to carry a data flow transmitted fromthe second network device to a remote user equipment in a first group,and the remote user equipment in the first group is connected to thesecond network device by using the first relay user equipment. Datacarried on the common data flow bearer is downlink data sent by thefirst network device to the remote user equipment in the first group,that is, all remote user equipments in the first group share the datasent on the common data flow bearer, and need to obtain the downlinkdata from the first relay user equipment. It should be noted that if thequantity of user equipments in the wireless network coverage is greaterthan or equal to the first threshold, and MBMS transmission is notapplicable to the wireless network because of a case such as channelcongestion or excessively sparse distribution of user equipments, datatransmission may be performed in the second mode.

For example, when a broadcast channel is congested, or there arerelatively few user equipments in a cellular network in a broadcastarea, resource waste may be caused if data is still transmitted in abroadcast mode. In this case, a unicast mode may be used. However, in agroup call, one or more remote user equipments are connected to a samerelay user equipment. The first network device delivers only one pieceof data after the common data flow bearer is established. The relay userequipment sends the data to each remote user equipment in a unicastmanner or a multicast manner after receiving the data.

When determining to transmit data in a unicast mode, the first networkdevice triggers the relay user equipment to establish the common dataflow bearer with the network side. In an example of the first relay userequipment, the data flow transmission method provided in this embodimentfurther includes the following steps.

405. The first relay user equipment establishes a common data flowbearer with the second network device.

Specifically, when the first network device triggers the first relayuser equipment to establish the common data flow bearer with the secondnetwork device, the first relay user equipment establishes the commondata flow bearer with the second network device. Optionally, a specifictriggering manner may be: the first network device triggersestablishment of the common data flow bearer by using an existing Rx(Receive, receive) interface, the first network device instructs thefirst relay user equipment to initiate establishment of the common dataflow bearer, the first network device instructs the second networkdevice to initiate establishment of the common data flow bearer, or thefirst network device triggers, by using the remote user equipment, thefirst relay user equipment to establish the common data flow bearer.

406. The first network device sends an identifier of a common data flowto a remote user equipment in a first group.

The identifier of the common data flow is used to instruct the remoteuser equipment in the first group to receive data of the common dataflow, and the first group includes at least two remote user equipments.

Optionally, the identifier of the common data flow may be determined bythe first network device, may be sent to the first network device afterbeing determined by the first relay user equipment, or may be negotiatedby the first network device and the remote user equipment in the firstgroup. This is not limited in the present invention.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end, and may further include one ormore of a source IP address of the common data flow, a transmit end IPaddress of the common data flow, a destination IP address of the commondata flow, a protocol number of the common data flow, a source port ofthe common data flow, or a destination port of the common data flow.

In addition, optionally, a common data flow identity (flow ID) may befurther used for identifying. Preferably, in an LTE system, the commondata flow identity (flow ID) is an identity that is pre-negotiated bythe first network device and an EPC (Evolved Packet Core, evolved packetcore) and that is dedicatedly used for identifying a downlink commondata flow bearer.

Optionally, if the first network device determines the identifier of thecommon data flow, or the first network device negotiates with the remoteuser equipment to determine the identifier of the common data flow, thedata flow transmission method provided in this embodiment furtherincludes the following step:

407. The first relay user equipment obtains the identifier of the commondata flow.

Preferably, the remote user equipment in the first group may send thereceived the identifier of the common data flow to the first relay userequipment, so that the first relay user equipment subsequently sends, ina multicast manner or a unicast manner, data received on the common dataflow to the remote user equipment in the first group.

Optionally, the first relay user equipment may directly captureinformation exchanged between the first network device and the remoteuser equipment in the first group in step 406, and then determine whichuser equipment in remote user equipments in the first group needs toreceive a data flow corresponding to the identifier of the common dataflow. Because the first relay user equipment needs to transparentlytransmit the information exchanged between the remote user equipment andthe first network device, the first relay user equipment may capture theinformation that needs to be transparently transmitted, so as to obtainthe identifier of the common data flow.

With reference to step 404 to step 407, it should be noted that, whendetermining to transmit downlink data by using the common data flow in aunicast mode, the first network device may first send the identifier ofthe common data flow to the remote user equipment in the first group, orthe first network device negotiates with each remote user equipment forthe identifier of the common data flow by using an application layer.

Then, the remote user equipment in the first group triggers the firstrelay user equipment to establish the common data flow bearer with thesecond network device, or the first network device directly instructsthe first relay user equipment to establish the common data flow bearerwith the second network device.

It should be noted that in step 407, the first relay user equipmentmainly determines remote user equipments to which the data received onthe common data flow bearer is sent. In this case, optionally, inanother possible implementation, the first relay user equipment directlyreceives an instruction including the identifier of the common data flowfrom the first network device.

According to the data flow transmission method provided in thisembodiment of the present invention, a first network device obtainsposition information of a user equipment for which the first networkdevice provides a service, and determines a transmission manner; whendetermining to transmit data by using a common data flow bearer in aunicast mode, the first network device triggers a first relay userequipment to establish the common data flow bearer with a second networkdevice, and sends an identifier of a common data flow to a remote userequipment in a first group; the remote user equipment in the first groupsends the identifier of the common data flow to the first relay userequipment; and when downlink data is being transmitted, the secondnetwork device transmits data of the common data flow to the first relayuser equipment, and the first relay user equipment transmits the data ofthe common data flow to the remote user equipment in the first group. Inthis way, common data sent to multiple remote user equipments istransmitted only once between the first relay user equipment and thesecond network device, thereby resolving a problem of resource wastecaused when a relay user equipment provides a relay service for a remoteuser equipment.

With reference to the embodiments corresponding to FIG. 2, FIG. 3, andFIG. 4, an embodiment of the present invention provides another dataflow transmission method. The method is applied to a first networkdevice in a wireless network system, and is preferably applied to thewireless network system shown in FIG. 1. The first network device may bethe AS 101 in the wireless network system shown in FIG. 1. Referring toFIG. 5, the method includes the following steps.

501. The first network device obtains position information of a userequipment for which the first network device provides a service.

The position information of the user equipment for which the firstnetwork device provides a service is used to indicate a position of theuser equipment for which the first network device provides a service.Preferably, user equipments for which the first network device providesa servics may include a remote user equipment and a relay userequipment.

For the remote user equipment in the user equipments for which the firstnetwork device provides a service, when i^(th) user equipment in theuser equipments for which the first network device provides a service isthe remote user equipment, position information of the i^(th) userequipment includes at least one of a cell ID of a cell to which a relayuser equipment connected to the i^(th) user equipment belongs, a datalink layer ID of a relay user equipment connected to the i^(th) userequipment, or an IP address of the i^(th) user equipment. The firstnetwork device may determine, according to position information of theremote user equipment, a relay user equipment to which each remote userequipment is currently connected, and then determine remote userequipments connected to a same relay user equipment.

For the relay user equipment in the user equipments for which the firstnetwork device provides a service, the first network device maydetermine a distribution status of the relay user equipment according toposition information of the relay user equipment.

502. When determining, according to the position information of the userequipment for which the first network device provides a service, thatthe user equipment for which the first network device provides a servicemeets a multimedia broadcast/multicast service MBMS transmissioncondition, the first network device triggers first relay user equipmentto establish an MBMS bearer with a second network device.

Optionally, the first relay user equipment may be the relay userequipment 102 in the wireless network system shown in FIG. 1, a remoteuser equipment in a first group may be the remote user equipment 103,and the second network device may be the GW 104.

The first network device may further send a TMGI to the first relay userequipment, and the TMGI is used to identify the MBMS bearer.

Specifically, optionally, the first network device determines a quantityof user equipments in wireless network coverage according to theposition information of the user equipment for which the first networkdevice provides a service. If the quantity of user equipments in thewireless network coverage is greater than or equal to a first threshold,the first network device triggers the first relay user equipment toestablish the MBMS bearer with the second network device. Certainly,determining performed based on the first threshold is merely a specificimplementation provided in this embodiment of the present invention. Thefirst network device may determine whether physical resources of thewireless network system meet the MBMS transmission condition, or if awireless network is congested, the MBMS transmission condition is notsatisfied.

Optionally, in another application scenario, when the first networkdevice determines, according to the position information of the userequipment for which the first network device provides a service, thatthe user equipment for which the first network device provides a servicedoes not meet the multimedia broadcast/multicast service MBMStransmission condition, the first network device triggers the firstrelay user equipment to establish a common data flow bearer with thesecond network device. Specifically, optionally, if the quantity of userequipments in the wireless network coverage is less than the firstthreshold, the first network device triggers the first relay userequipment to establish the common data flow bearer with the secondnetwork device. The common data flow bearer is used to carry a data flowtransmitted from the second network device to a remote user equipment ina first group, and the first group includes at least two remote userequipments. The remote user equipment in the first group is connected tothe second network device by using the first relay user equipment. Datacarried on the common data flow bearer is downlink data sent by thefirst network device to the remote user equipment in the first group,that is, all remote user equipments in the first group need to obtainthe downlink data from the first relay user equipment. It should benoted that the first network device may determine whether the wirelessnetwork is congested, and the MBMS transmission condition is notsatisfied if the network is congested. In this case, the common dataflow bearer may be established.

In this case, optionally, the first network device may send anidentifier of a common data flow to the remote user equipment in thefirst group. The identifier of the common data flow is used to instructthe remote user equipment in the first group to receive data transmittedby using the common data flow bearer.

Further, optionally, the identifier of the common data flow includes anIP address of a downlink data receive end, and may further include oneor more of a source IP address of the common data flow, a transmit endIP address of the common data flow, a destination IP address of thecommon data flow, a protocol number of the common data flow, a sourceport of the common data flow, or a destination port of the common dataflow.

Alternatively and optionally, a common data flow identity (flow ID) maybe used for identifying. Preferably, in an LTE system, the common dataflow identity (flow ID) is an identity that is pre-negotiated by thefirst network device and an EPC (Evolved Packet Core, evolved packetcore) and that is dedicatedly used for identifying a downlink commondata flow bearer.

According to the data flow transmission method provided in thisembodiment of the present invention, a first network device obtainsposition information of a user equipment for which the first networkdevice provides a service; and when determining, according to theposition information of the user equipment, that the user equipment forwhich the first network device provides a service meets a multimediabroadcast/multicast service MBMS transmission condition, the firstnetwork device triggers a first relay user equipment to establish anMBMS bearer with a second network device. In this way, a problem ofresource waste caused when the MBMS bearer is used to transmit data whenthere are relatively few user equipments in wireless network coverage ora network is congested is avoided.

Based on the embodiments corresponding to FIG. 2 and FIG. 4, anembodiment of the present invention provides a first network device. Thefirst network device is applied to a wireless network system, and isconfigured to execute the data flow transmission methods described inthe embodiments corresponding to FIG. 2 and FIG. 4. Preferably, thefirst network device is applied to the wireless network system shown inFIG. 1, and may be the AS 101 in the network system shown in FIG. 1.Referring to FIG. 6, the first network device 60 includes a data flowunit 601 and a sending unit 602.

The data flow unit 601 is configured to trigger a first relay userequipment to establish a common data flow bearer with a second networkdevice, where the common data flow bearer is used to carry a data flowtransmitted from the second network device to a remote user equipment ina first group, and the remote user equipment in the first group isconnected to the second network device by using the first relay userequipment.

The sending unit 602 is configured to send an identifier of a commondata flow to the remote user equipment in the first group by using thefirst relay user equipment, where the identifier of the common data flowis used to instruct the remote user equipment in the first group toreceive data of the common data flow, and the first group includes atleast two remote user equipments.

Optionally, an application scenario is as follows:

The first network device 60 further includes an obtaining unit 603,configured to obtain position information of a user equipment for whichthe first network device provides a service;

the data flow unit 601 is further configured to: determine a quantity ofuser equipments in wireless network coverage according to the positioninformation that is of the user equipment for which the first networkdevice provides a service and that is obtained by the obtaining unit,and if the quantity of user equipments in the wireless network coverageis greater than or equal to a first threshold, trigger the first relayuser equipment to establish a multimedia broadcast/multicast serviceMBMS bearer with the second network device; and

the sending unit 602 is further configured to send a TMGI to the firstrelay user equipment.

Further, optionally, the data flow unit 601 is further configured to:when the quantity of user equipments in the wireless network coverage isless than the first threshold, determine, according to the positioninformation of the user equipment for which the first network deviceprovides a service, a quantity of remote user equipments connected tothe first relay user equipment, and when the quantity of remote userequipments connected to the first relay user equipment is greater thanor equal to a second threshold, trigger the first relay user equipmentto establish the common data flow bearer with the second network device.

Optionally, position information of i^(th) user equipment in userequipments for which the first network device provides a serviceincludes at least one of a cell identity ID of a cell to which a relayuser equipment connected to the i^(th) user equipment belongs, a datalink layer ID of a relay user equipment connected to the i^(th) userequipment, or an Internet Protocol IP address of the i^(th) userequipment, where i is an integer greater than or equal to 1.

Optionally, the first network device 60 further includes a receivingunit 604, configured to receive the identifier of the common data flowsent by the first relay user equipment.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end.

The identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

The first network device provided in this embodiment of the presentinvention triggers a first relay user equipment to establish a commondata flow bearer with a second network device; the first network devicesends an identifier of a common data flow to a remote user equipment ina first group before or after the first network device triggers thefirst relay user equipment to establish the common data flow bearer withthe second network device; and when downlink data is being transmitted,the second network device transmits data of the common data flow to thefirst relay user equipment, and the first relay user equipment transmitsthe data of the common data flow to the remote user equipment in thefirst group. In this way, common data sent to multiple remote userequipments is transmitted only once between the first relay userequipment and the second network device, thereby resolving a problem ofresource waste caused when a relay user equipment provides a relayservice for a remote user equipment.

Based on the embodiments corresponding to FIG. 3 and FIG. 4, anembodiment of the present invention provides a first relay userequipment. The first relay user equipment is applied to a wirelessnetwork system, and is configured to execute the data flow transmissionmethods described in the embodiments corresponding to FIG. 3 and FIG. 4.Preferably, the first relay user equipment is applied to the wirelessnetwork system shown in FIG. 1, and may be the relay user equipment 102in the network system shown in FIG. 1. Referring to FIG. 7, the firstrelay user equipment 70 includes a bearer unit 701 and an obtaining unit702.

The bearer unit 701 is configured to: when a first network devicetriggers the first relay user equipment 70 to establish a common dataflow bearer with a second network device, establish the common data flowbearer with the second network device, where the common data flow beareris used to carry a data flow transmitted from the second network deviceto a remote user equipment in a first group, the remote user equipmentin the first group is connected to the second network device by usingthe first relay user equipment, and the first group includes at leasttwo remote user equipments.

The obtaining unit 702 is configured to obtain an identifier of a commondata flow before or after the first relay user equipment 70 establishesthe common data flow bearer with the second network device, where theidentifier of the common data flow is used to instruct the first relayuser equipment 70 to send data of the common data flow to the remoteuser equipment in the first group.

Optionally, the first relay user equipment 70 further includes a firstsending unit 703, configured to send position information of the remoteuser equipment to the remote user equipment, where the positioninformation of the remote user equipment is used to indicate a positionof the remote user equipment, and the remote user equipment is connectedto the second network device by using the first relay user equipment.

Optionally, the bearer unit 701 is further configured to: when the firstnetwork device triggers the first relay user equipment 70 to establish amultimedia broadcast/multicast service MBMS bearer with the secondnetwork device, establish the MBMS bearer with the second networkdevice.

The first relay user equipment 70 further includes a receiving unit 704,configured to receive a TMGI sent by the first network device.

Optionally, position information of n^(th) remote user equipment in theremote user equipments includes at least one of a cell identity ID of acell to which the first relay user equipment 70 belongs, a data linklayer ID of the first relay user equipment 70, or an Internet ProtocolIP address of the n^(th) remote user equipment, where n is an integergreater than or equal to 1.

Optionally, the obtaining unit 702 is specifically configured to obtainthe identifier of the common data flow sent by the remote user equipmentin the first group.

Optionally, the first relay user equipment 70 further includes a secondsending unit 705, configured to send the identifier of the common dataflow to the first network device.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end.

The identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

The first relay user equipment provided in this embodiment of thepresent invention establishes a common data flow bearer with a secondnetwork device; the first relay user equipment obtains an identifier ofa common data flow before or after establishing the common data flowbearer with the second network device; and when downlink data is beingtransmitted, the second network device transmits data of the common dataflow to the first relay user equipment, and the first relay userequipment transmits the data of the common data flow to a remote userequipment in a first group. In this way, common data sent to multipleremote user equipments is transmitted only once between the first relayuser equipment and the second network device, thereby resolving aproblem of resource waste caused when a relay user equipment provides arelay service for a remote user equipment.

Based on the embodiment corresponding to FIG. 5, an embodiment of thepresent invention provides another first network device. The firstnetwork device is applied to a wireless network system, and isconfigured to execute the data flow transmission method described in theembodiment corresponding to FIG. 5. Preferably, the first network deviceis applied to the wireless network system shown in FIG. 1, and may bethe AS 101 in the wireless network system shown in FIG. 1. Referring toFIG. 8, the first network device 80 includes an obtaining unit 801 and adata flow unit 802.

The obtaining unit 801 is configured to obtain position information of auser equipment for which the first network device provides a service.

The data flow unit 802 is configured to: when it is determined,according to the position information that is of the user equipment forwhich the first network device provides a service and that is obtainedby the obtaining unit 801, that the user equipment for which the firstnetwork device provides a service meets a multimedia broadcast/multicastservice MBMS transmission condition, trigger a first relay userequipment to establish an MBMS bearer with a second network device.

Optionally, the data flow unit 802 is specifically configured to:determine a quantity of user equipments in wireless network coverageaccording to the position information of the user equipment for whichthe first network device provides a service, and if the quantity of userequipments in the wireless network coverage is greater than or equal toa first threshold, trigger the first relay user equipment to establishthe MBMS bearer with the second network device.

Optionally, the data flow unit 801 is further configured to: when it isdetermined, according to the position information of the user equipmentfor which the first network device provides a service, that the userequipment for which the first network device provides a service does notmeet the multimedia broadcast/multicast service MBMS transmissioncondition, trigger the first relay user equipment to establish a commondata flow bearer with the second network device, where the common dataflow bearer is used to carry a data flow transmitted from the secondnetwork device to a remote user equipment in a first group, the remoteuser equipment in the first group is connected to the second networkdevice by using the first relay user equipment, and the first groupincludes at least two remote user equipments.

Optionally, the first network device 80 further includes a first sendingunit 803, configured to send an identifier of a common data flow to theremote user equipment in the first group when it is determined,according to the position information of the user equipment for whichthe first network device provides a service, that the user equipment forwhich the first network device provides a service does not meet themultimedia broadcast/multicast service MBMS transmission condition,where the identifier of the common data flow is used to instruct theremote user equipment in the first group to receive data of the commondata flow.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end.

The identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

Optionally, the first network device 80 further includes a secondsending unit 804, configured to send a TMGI to the first relay userequipment.

Optionally, position information of i^(th) user equipment in userequipments for which the first network device provides a serviceincludes at least one of a cell identity ID of a cell to which a relayuser equipment connected to the i^(th) user equipment belongs, a datalink layer ID of a relay user equipment connected to the i^(th) userequipment, or an Internet Protocol IP address of the i^(th) userequipment.

The first network device provided in this embodiment of the presentinvention obtains position information of a user equipment for which thefirst network device provides a service, and when determining, accordingto the position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service meets a multimediabroadcast/multicast service MBMS transmission condition, triggers afirst relay user equipment to establish an MBMS bearer with a secondnetwork device. In this way, a problem of resource waste caused when theMBMS bearer is used to transmit data when there are relatively few userequipments in wireless network coverage or a network is congested isavoided.

Based on the embodiments corresponding to FIG. 2 and FIG. 4, anotherembodiment of the present invention provides a first network device 90.The first network device is applied to a wireless network system, and isconfigured to execute the data flow transmission methods described inthe embodiments corresponding to FIG. 2 and FIG. 4. Preferably, thefirst network device is applied to the wireless network system shown inFIG. 1, and may be the AS 101 in the network system shown in FIG. 1.Referring to FIG. 9, the first network device 90 includes: at least oneprocessor 901, a memory 902, a bus 903, and a transmitter 904, and theat least one processor 901, the memory 902, and the transmitter 904 areconnected to and communicate with each other by using the bus 903.

The bus 903 may be an ISA (Industry Standard Architecture, industrystandard architecture) bus, a PCI (Peripheral Component, peripheralcomponent interconnect) bus, an EISA (Extended Industry StandardArchitecture, extended industry standard architecture) bus, or the like.The bus 903 may include an address bus, a data bus, a control bus, andthe like. For ease of denotation, the bus 903 is represented by usingonly one thick line in FIG. 9. However, it does not mean that there isonly one bus or only one type of bus.

The memory 902 is configured to store application program code used forexecuting the solutions of the present invention. The applicationprogram code used for executing the solutions of the present inventionis stored in the memory, and execution thereof is controlled by theprocessor 901.

The memory may be a read-only memory ROM or a static storage device ofanother type that can store static information and an instruction, or arandom access memory RAM or a dynamic storage device of another typethat can store information and an instruction; or may be an electricallyerasable programmable read-only memory EEPROM, a compact disc read-onlymemory CD-ROM, another compact disk storage medium, an optical discstorage medium (including a compact disc, a laser disc, an optical disc,a digital versatile disc, a blue-ray disc, and the like), or a diskstorage medium, another disk storage device, or any other medium thatcan be used to carry or store expected program code in a form of aninstruction or a data structure and that can be accessed by a computer.The memory is not limited herein. These memories are connected to theprocessor by using the bus.

The processor 901 may be a central processing unit 901 (CentralProcessing Unit, CPU for short), an application-specific integratedcircuit (Application Specific Integrated Circuit, ASIC for short), orone or more integrated circuits configured to implement this embodimentof the present invention.

The processor 901 is configured to invoke the program code stored in thememory 902. In a possible implementation, the following functions areimplemented when the foregoing application program code is executed bythe processor 901.

The processor 901 is configured to trigger a first relay user equipmentto establish a common data flow bearer with a second network device,where the common data flow bearer is used to carry a data flowtransmitted from the second network device to a remote user equipment ina first group, the remote user equipment in the first group is connectedto the second network device by using the first relay user equipment,and the first group includes at least two remote user equipments.

The transmitter 904 is configured to send an identifier of a common dataflow to the remote user equipment in the first group by using the firstrelay user equipment, where the identifier of the common data flow isused to instruct the remote user equipment in the first group to receivedata of the common data flow.

Optionally, the processor 901 is further configured to: obtain positioninformation of a user equipment for which the first network deviceprovides a service, determine a quantity of user equipments in wirelessnetwork coverage according to the position information of the userequipment for which the first network device provides a service, and ifthe quantity of user equipments in the wireless network coverage isgreater than or equal to a first threshold, trigger the first relay userequipment to establish a multimedia broadcast/multicast service MBMSbearer with the second network device.

The transmitter 904 is further configured to send a TMGI to the firstrelay user equipment.

Optionally, the processor 901 is further configured to: when thequantity of user equipments in the wireless network coverage is lessthan the first threshold, determine, according to the positioninformation of the user equipment for which the first network deviceprovides a service, a quantity of remote user equipments connected tothe first relay user equipment, and when the quantity of remote userequipments connected to the first relay user equipment is greater thanor equal to a second threshold, trigger the first relay user equipmentto establish the common data flow bearer with the second network device.

Optionally, position information of i^(th) user equipment in userequipments for which the first network device provides a serviceincludes at least one of a cell identity ID of a cell to which a relayuser equipment connected to the i^(th) user equipment belongs, a datalink layer ID of a relay user equipment connected to the i^(th) userequipment, or an Internet Protocol IP address of the i^(th) userequipment, where i is an integer greater than or equal to 1.

Optionally, the first network device 90 further includes a receiver 905,configured to receive the identifier of the common data flow sent by thefirst relay user equipment.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end.

The identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

The first network device provided in this embodiment of the presentinvention triggers a first relay user equipment to establish a commondata flow bearer with a second network device; the first network devicesends an identifier of a common data flow to a remote user equipment ina first group before or after the first network device triggers thefirst relay user equipment to establish the common data flow bearer withthe second network device; and when downlink data is being transmitted,the second network device transmits data of the common data flow to thefirst relay user equipment, and the first relay user equipment transmitsthe data of the common data flow to the remote user equipment in thefirst group. In this way, common data sent to multiple remote userequipments is transmitted only once between the first relay userequipment and the second network device, thereby resolving a problem ofresource waste caused when a relay user equipment provides a relayservice for a remote user equipment.

Based on the embodiments corresponding to FIG. 3 and FIG. 4, anotherembodiment of the present invention provides a first relay userequipment. The first relay user equipment is applied to a wirelessnetwork system, and is configured to execute the data flow transmissionmethods described in the embodiments corresponding to FIG. 3 and FIG. 4.Preferably, the first relay user equipment is applied to the wirelessnetwork system shown in FIG. 1, and may be the relay user equipment 102in the network system shown in FIG. 1. Referring to FIG. 10, the firstrelay user equipment 100 includes: at least one processor 1001, a memory1002, and a bus 1003, and the at least one processor 1001 and the memory1002 are connected to and communicate with each other by using the bus1003.

The bus 1003 may be an ISA (Industry Standard Architecture, industrystandard architecture) bus, a PCI (Peripheral Component, peripheralcomponent interconnect) bus, an EISA (Extended Industry StandardArchitecture, extended industry standard architecture) bus, or the like.The bus 1003 may include an address bus, a data bus, a control bus, andthe like. For ease of denotation, the bus 1003 is represented by usingonly one thick line in FIG. 10. However, it does not mean that there isonly one bus or only one type of bus.

The memory 1002 is configured to store application program code used forexecuting the solutions of the present invention. The applicationprogram code used for executing the solutions of the present inventionis stored in the memory, and execution thereof is controlled by theprocessor 1001.

The memory may be a read-only memory ROM or a static storage device ofanother type that can store static information and an instruction, or arandom access memory RAM or a dynamic storage device of another typethat can store information and an instruction; or may be an electricallyerasable programmable read-only memory EEPROM, a compact disc read-onlymemory CD-ROM, another compact disk storage medium, an optical discstorage medium (including a compact disc, a laser disc, an optical disc,a digital versatile disc, a blue-ray disc, and the like), or a diskstorage medium, another disk storage device, or any other medium thatcan be used to carry or store expected program code in a form of aninstruction or a data structure and that can be accessed by a computer.The memory is not limited herein. These memories are connected to theprocessor by using the bus.

The processor 1001 may be a central processing unit 1001 (CentralProcessing Unit, CPU for short), an application-specific integratedcircuit (Application Specific Integrated Circuit, ASIC for short), orone or more integrated circuits configured to implement this embodimentof the present invention.

The processor 1001 is configured to invoke the program code stored inthe memory 1002. In a possible implementation, the following functionsare implemented when the foregoing application program is executed bythe processor 1001.

The processor 1001 is configured to: when a first network devicetriggers the first relay user equipment to establish a common data flowbearer with a second network device, establish the common data flowbearer with the second network device, where the common data flow beareris used to carry a data flow transmitted from the second network deviceto a remote user equipment in a first group, the remote user equipmentin the first group is connected to the second network device by usingthe first relay user equipment, and the first group includes at leasttwo remote user equipments.

The processor 1001 is further configured to obtain an identifier of acommon data flow before or after the first relay user equipmentestablishes the common data flow bearer with the second network device,where the identifier of the common data flow is used to instruct thefirst relay user equipment to send data of the common data flow to theremote user equipment in the first group.

Optionally, the first relay user equipment 100 further includes a firsttransmitter 1004, configured to send position information of the remoteuser equipment to the remote user equipment, where the positioninformation of the remote user equipment is used to indicate a positionof the remote user equipment, and the remote user equipment is connectedto the second network device by using the first relay user equipment.

Optionally, the processor 1001 is further configured to: when the firstnetwork device triggers the first relay user equipment to establish amultimedia broadcast/multicast service MBMS bearer with the secondnetwork device, establish the MBMS bearer with the second networkdevice.

The first relay user equipment 100 further includes a receiver 1005,configured to receive a TMGI sent by the first network device.

Optionally, position information of n^(th) remote user equipment in theremote user equipments includes at least one of a cell identity ID of acell to which the first relay user equipment belongs, a data link layerID of the first relay user equipment, or an Internet Protocol IP addressof the n^(th) remote user equipment, where n is an integer greater thanor equal to 1.

Optionally, the processor 1001 is specifically configured to obtain theidentifier of the common data flow sent by the remote user equipment inthe first group.

Optionally, the first relay user equipment 100 further includes a secondtransmitter 1006, configured to send the identifier of the common dataflow to the first network device.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end.

The identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

The first relay user equipment provided in this embodiment of thepresent invention establishes a common data flow bearer with a secondnetwork device; the first relay user equipment obtains an identifier ofa common data flow before or after establishing the common data flowbearer with the second network device; and when downlink data is beingtransmitted, the second network device transmits data of the common dataflow to the first relay user equipment, and the first relay userequipment transmits the data of the common data flow to a remote userequipment in a first group. In this way, common data sent to multipleremote user equipments is transmitted only once between the first relayuser equipment and the second network device, thereby resolving aproblem of resource waste caused when a relay user equipment provides arelay service for a remote user equipment.

Based on the embodiment corresponding to FIG. 5, another embodiment ofthe present invention provides another first network device. The firstnetwork device is applied to a wireless network system, and isconfigured to execute the data flow transmission method described in theembodiment corresponding to FIG. 5. Preferably, the first network deviceis applied to the wireless network system shown in FIG. 1, and may bethe AS 101 in the wireless network system shown in FIG. 1. Referring toFIG. 11, the first network device 110 includes: at least one processor1101, a memory 1102, and a bus 1103, and the at least one processor 1101and the memory 1102 are connected to and communicate with each other byusing the bus 1103.

The bus 1103 may be an ISA (Industry Standard Architecture, industrystandard architecture) bus, a PCI (Peripheral Component, peripheralcomponent interconnect) bus, an EISA (Extended Industry StandardArchitecture, extended industry standard architecture) bus, or the like.The bus 1103 may include an address bus, a data bus, a control bus, andthe like. For ease of denotation, the bus 1103 is represented by usingonly one thick line in FIG. 11. However, it does not mean that there isonly one bus or only one type of bus.

The memory 1102 is configured to store application program code used forexecuting the solutions of the present invention. The applicationprogram code used for executing the solutions of the present inventionis stored in the memory, and execution thereof is controlled by theprocessor 1101.

The memory may be a read-only memory ROM or a static storage device ofanother type that can store static information and an instruction, or arandom access memory RAM or a dynamic storage device of another typethat can store information and an instruction; or may be an electricallyerasable programmable read-only memory EEPROM, a compact disc read-onlymemory CD-ROM, another compact disk storage medium, an optical discstorage medium (including a compact disc, a laser disc, an optical disc,a digital versatile disc, a blue-ray disc, and the like), or a diskstorage medium, another disk storage device, or any other medium thatcan be used to carry or store expected program code in a form of aninstruction or a data structure and that can be accessed by a computer.The memory is not limited herein. These memories are connected to theprocessor by using the bus.

The processor 1101 may be a central processing unit 1101 (CentralProcessing Unit, CPU for short), an application-specific integratedcircuit (Application Specific Integrated Circuit, ASIC for short), orone or more integrated circuits configured to implement this embodimentof the present invention.

The processor 1101 is configured to invoke the program code stored inthe memory 1102. In a possible implementation, the following functionsare implemented when the foregoing application program is executed bythe processor 1101.

The processor 1101 is configured to: obtain position information of auser equipment for which the first network device provides a service,and when it is determined, according to the position information of theuser equipment for which the first network device provides a service,that the user equipment for which the first network device provides aservice meets a multimedia broadcast/multicast service MBMS transmissioncondition, trigger a first relay user equipment to establish an MBMSbearer with a second network device.

Optionally, the processor 1101 is specifically configured to: determinea quantity of user equipments in wireless network coverage according tothe position information of the user equipment for which the firstnetwork device provides a service, and if the quantity of userequipments in the wireless network coverage is greater than or equal toa first threshold, trigger the first relay user equipment to establishthe MBMS bearer with the second network device.

Optionally, the processor 1101 is further configured to: when it isdetermined, according to the position information of the user equipmentfor which the first network device provides a service, that the userequipment for which the first network device provides a service does notmeet the multimedia broadcast/multicast service MBMS transmissioncondition, trigger the first relay user equipment to establish a commondata flow bearer with the second network device, where the common dataflow bearer is used to carry a data flow transmitted from the secondnetwork device to a remote user equipment in a first group, the remoteuser equipment in the first group is connected to the second networkdevice by using the first relay user equipment, and the first groupincludes at least two remote user equipments.

Optionally, the first network device 110 further includes a firsttransmitter 1104, configured to send an identifier of a common data flowto the remote user equipment in the first group when it is determined,according to the position information of the user equipment for whichthe first network device provides a service, that the user equipment forwhich the first network device provides a service does not meet themultimedia broadcast/multicast service MBMS transmission condition,where the identifier of the common data flow is used to instruct theremote user equipment in the first group to receive data of the commondata flow.

Optionally, the identifier of the common data flow includes an IPaddress of a downlink data receive end.

The identifier of the common data flow further includes at least one ofa source IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.

Optionally, the first network device 110 further includes a secondtransmitter 1105, configured to send a TMGI to the first relay userequipment.

Optionally, position information of i^(th) user equipment in userequipments for which the first network device provides a serviceincludes at least one of a cell identity ID of a cell to which a relayuser equipment connected to the i^(th) user equipment belongs, a datalink layer ID of a relay user equipment connected to the i^(th) userequipment, or an Internet Protocol IP address of the i^(th) userequipment.

The first network device provided in this embodiment of the presentinvention obtains position information of a user equipment for which thefirst network device provides a service, and when determining, accordingto the position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service meets a multimediabroadcast/multicast service MBMS transmission condition, triggers afirst relay user equipment to establish an MBMS bearer with a secondnetwork device. In this way, a problem of resource waste caused when theMBMS bearer is used to transmit data when there are relatively few userequipments in wireless network coverage or a network is congested isavoided.

Another embodiment of the present invention provides a wireless networksystem, configured to execute the data flow transmission methodsdescribed in the embodiments corresponding to FIG. 2, FIG. 3, and FIG.4. Preferably, the wireless network system provided in this embodimentmay be the wireless network system shown in FIG. 1. Referring to FIG.12, a wireless network system 120 provided in this embodiment includes afirst network device 1201 and a first relay user equipment 1202.

The first network device 1201 is the first network device described inthe embodiment corresponding to FIG. 6, and the first relay userequipment 1202 is the first relay user equipment described in theembodiment corresponding to FIG. 7.

Alternatively, the first network device 1201 is the first network devicedescribed in the embodiment corresponding to FIG. 9, and the first relayuser equipment 1202 is the first relay user equipment described in theembodiment corresponding to FIG. 10.

Optionally, the wireless network system 120 further includes a remoteuser equipment 1203 and a second network device 1204.

According to the wireless network system provided in this embodiment ofthe present invention, a first network device triggers a first relayuser equipment to establish a common data flow bearer with a secondnetwork device; the first network device sends an identifier of a commondata flow to a remote user equipment in a first group before or afterthe first network device triggers the first relay user equipment toestablish the common data flow bearer with the second network device;and when downlink data is being transmitted, the second network devicetransmits data of the common data flow to the first relay userequipment, and the first relay user equipment transmits the data of thecommon data flow to the remote user equipment in the first group. Inthis way, common data sent to multiple remote user equipments istransmitted only once between the first relay user equipment and thesecond network device, thereby resolving a problem of resource wastecaused when a relay user equipment provides a relay service for a remoteuser equipment.

Still another embodiment of the present invention provides a wirelessnetwork system, configured to execute the data flow transmission methoddescribed in the embodiment corresponding to FIG. 5. Preferably, thewireless network system provided in this embodiment may be the wirelessnetwork system shown in FIG. 1. Referring to FIG. 13, a wireless networksystem 130 provided in this embodiment includes a first network device1301.

The first network device 1301 is the first network device described inthe embodiment corresponding to FIG. 8, or the first network device 1301is the first network device described in the embodiment corresponding toFIG. 11.

Optionally, the wireless network system 130 further includes a firstrelay user equipment 1302, a remote user equipment 1303, and a secondnetwork device 1304.

According to the wireless network system provided in this embodiment ofthe present invention, a first network device obtains positioninformation of a user equipment for which the first network deviceprovides a service; and when determining, according to the positioninformation of the user equipment for which the first network deviceprovides a service, that the user equipment for which the first networkdevice provides a service meets a multimedia broadcast/multicast serviceMBMS transmission condition, the first network device triggers a firstrelay user equipment to establish an MBMS bearer with a second networkdevice. In this way, a problem of resource waste caused when the MBMSbearer is used to transmit data when there are relatively few userequipments in wireless network coverage or a network is congested isavoided.

Based on descriptions of the foregoing implementations, a person skilledin the art may clearly understand that the present invention may beimplemented by hardware, firmware, or a combination thereof. When thepresent invention is implemented by software, the foregoing functionsmay be stored in a computer-readable medium or transmitted as one ormore instructions or code in the computer-readable medium. Thecomputer-readable medium includes a computer storage medium and acommunications medium, where the communications medium includes anymedium that enables a computer program to be transmitted from one placeto another. The storage medium may be any available medium accessible toa computer. The following provides an example but does not impose alimitation: The computer readable medium may include a RAM (RandomAccess Memory, random access memory), a ROM (Read-Only Memory, read-onlymemory), an EEPROM (Electrically Erasable Programmable Read-Only Memory,electrically erasable programmable read-only memory), a CD-ROM (CompactDisc Read-Only Memory, compact disc read-only memory), another opticaldisk storage medium, a disk storage medium, another disk storage device,or any other medium that can be used to carry or store expected programcode in a form of an instruction or a data structure and that can beaccessed by a computer. In addition, any connection may be appropriatelydefined as a computer-readable medium. For example, if software istransmitted from a website, a first network device, or another remotesource by using a coaxial cable, an optical fiber/cable, a twisted pair,a DSL (Digital Subscriber Line, digital subscriber line), or wirelesstechnologies such as infrared ray, radio and microwave, the coaxialcable, the optical fiber/cable, the twisted pair, the DSL or thewireless technologies such as infrared ray, radio and microwave areincluded in a definition of a medium to which they belong. For example,a disk and a disc used in the present invention includes a CD (CompactDisc, compact disc), a laser disc, an optical disc, a DVD disc (DigitalVersatile Disc, digital versatile disc), a floppy disk, and a Blu-raydisc, and the disk generally copies data by a magnetic means, and thedisc copies data optically by a laser means. The foregoing combinationshould also be included in the protection scope of the computer-readablemedium.

The foregoing descriptions are merely specific implementations of thepresent invention, but are not intended to limit the protection scope ofthe present invention. Any variation or replacement readily figured outby a person skilled in the art within the technical scope disclosed inthe present invention shall fall within the protection scope of thepresent invention. Therefore, the protection scope of the presentinvention shall be subject to the protection scope of the claims.

What is claimed is:
 1. A data flow transmission method, applied to awireless network system, and comprising: when a first network devicetriggers a first relay user equipment to establish a common data flowbearer with a second network device, establishing, by the first relayuser equipment, the common data flow bearer with the second networkdevice, wherein the common data flow bearer is used to carry a data flowtransmitted from the second network device to a remote user equipment ina first group, the remote user equipment in the first group is connectedto the second network device by using the first relay user equipment,and the first group comprises at least two remote user equipments; andobtaining, by the first relay user equipment, an identifier of a commondata flow before or after the first relay user equipment establishes thecommon data flow bearer with the second network device, wherein theidentifier of the common data flow is used to instruct the first relayuser equipment to send data of the common data flow to the remote userequipment in the first group.
 2. The method according to claim 1,wherein before the establishing, by the first relay user equipment, thecommon data flow bearer with the second network device, the methodfurther comprises: sending, by the first relay user equipment, positioninformation of the remote user equipment to the remote user equipment,wherein the remote user equipment is connected to the second networkdevice by using the first relay user equipment.
 3. The method accordingto claim 2, wherein position information of n^(th) remote user equipmentin the remote user equipments comprises at least one of a cell identity(ID) of a cell to which the first relay user equipment belongs, a datalink layer ID of the first relay user equipment, or an Internet ProtocolIP address of the n^(th) remote user equipment, wherein n is an integergreater than or equal to
 1. 4. The method according to claim 1, whereinthe method further comprises: when the first network device triggers thefirst relay user equipment to establish a multimedia broadcast/multicastservice (MBMS) bearer with the second network device, establishing, bythe first relay user equipment, the MBMS bearer with the second networkdevice, and receiving a temporary mobile group identity (TMGI) sent bythe first network device.
 5. The method according to claim 1, whereinthe obtaining, by the first relay user equipment, an identifier of acommon data flow comprises: obtaining, by the first relay userequipment, the identifier of the common data flow sent by the remoteuser equipment in the first group.
 6. The method according to claim 1,wherein the method further comprises: sending, by the first relay userequipment, the identifier of the common data flow to the first networkdevice.
 7. The method according to claim 1, wherein the identifier ofthe common data flow comprises an IP address of a downlink data receiveend; and the identifier of the common data flow further comprises atleast one of a source IP address of the common data flow, a destinationIP address of the common data flow, a protocol number of the common dataflow, a source port of the common data flow, a destination port of thecommon data flow, or an ID of the common data flow.
 8. A first relayuser equipment, comprising: a processor, a memory, and a bus, whereinthe processor and the memory are connected to each other by using thebus; the processor is configured to: when a first network devicetriggers the first relay user equipment to establish a common data flowbearer with a second network device, establish the common data flowbearer with the second network device, wherein the common data flowbearer is used to carry a data flow transmitted from the second networkdevice to a remote user equipment in a first group, the remote userequipment in the first group is connected to the second network deviceby using the first relay user equipment, and the first group comprisesat least two remote user equipments; and the processor is furtherconfigured to obtain an identifier of a common data flow before or afterthe first relay user equipment establishes the common data flow bearerwith the second network device, wherein the identifier of the commondata flow is used to instruct the first relay user equipment to senddata of the common data flow to the remote user equipment in the firstgroup.
 9. The device according to claim 8, wherein the first relay userequipment further comprises a first transmitter, configured to sendposition information of the remote user equipment to the remote userequipment, wherein the remote user equipment is connected to the secondnetwork device by using the first relay user equipment.
 10. The deviceaccording to claim 9, wherein position information of n^(th) remote userequipment in the remote user equipments comprises at least one of a cellidentity (ID) of a cell to which the first relay user equipment belongs,a data link layer ID of the first relay user equipment, or an InternetProtocol (IP) address of the n^(th) remote user equipment, wherein n isan integer greater than or equal to
 1. 11. The device according to claim8, wherein the processor is further configured to: when the firstnetwork device triggers the first relay user equipment to establish amultimedia broadcast/multicast service (MBMS) bearer with the secondnetwork device, establish the MBMS bearer with the second networkdevice; and the first relay user equipment further comprises a receiver,configured to receive a temporary mobile group identity (TMGI) sent bythe first network device.
 12. The device according to claim 8, whereinthe processor is specifically configured to obtain the identifier of thecommon data flow sent by the remote user equipment in the first group.13. The device according to claim 8, wherein the first relay userequipment further comprises a second transmitter, configured to send theidentifier of the common data flow to the first network device.
 14. Thedevice according to claim 8, wherein the identifier of the common dataflow comprises an IP address of a downlink data receive end; and theidentifier of the common data flow further comprises at least one of asource IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.
 15. A first network device,comprising: a processor, a memory, and a bus, wherein the processor andthe memory are connected to each other by using the bus; the processoris configured to: obtain position information of a user equipment forwhich the first network device provides a service, and when it isdetermined, according to the position information of the user equipmentfor which the first network device provides a service, that the userequipment for which the first network device provides a service meets amultimedia broadcast/multicast service (MBMS) transmission condition,trigger the first relay user equipment to establish an MBMS bearer withthe second network device.
 16. The device according to claim 15, whereinthe processor is specifically configured to: determine a quantity ofuser equipments in wireless network coverage according to the positioninformation of the user equipment for which the first network deviceprovides a service, and if the quantity of user equipments in thewireless network coverage is greater than or equal to a first threshold,trigger the first relay user equipment to establish the MBMS bearer withthe second network device.
 17. The device according to claim 15, whereinthe processor is further configured to: when it is determined, accordingto the position information of the user equipment for which the firstnetwork device provides a service, that the user equipment for which thefirst network device provides a service does not meet the multimediabroadcast/multicast service (MBMS) transmission condition, trigger thefirst relay user equipment to establish a common data flow bearer withthe second network device, wherein the common data flow bearer is usedto carry a data flow transmitted from the second network device to aremote user equipment in a first group, the remote user equipment in thefirst group is connected to the second network device by using the firstrelay user equipment, and the first group comprises at least two remoteuser equipments.
 18. The device according to claim 17, wherein the firstnetwork device further comprises a first transmitter, configured to sendan identifier of a common data flow to the remote user equipment in thefirst group when it is determined, according to the position informationof the user equipment for which the first network device provides aservice, that the user equipment for which the first network deviceprovides a service does not meet the multimedia broadcast/multicastservice (MBMS) transmission condition, wherein the identifier of thecommon data flow is used to instruct the remote user equipment in thefirst group to receive data of the common data flow.
 19. The deviceaccording to claim 18, wherein the identifier of the common data flowcomprises an IP address of a downlink data receive end; and theidentifier of the common data flow further comprises at least one of asource IP address of the common data flow, a destination IP address ofthe common data flow, a protocol number of the common data flow, asource port of the common data flow, a destination port of the commondata flow, or an ID of the common data flow.
 20. The device according toclaim 15, wherein the first network device further comprises a secondtransmitter, configured to send a temporary mobile group identity (TMGI)to the first relay user equipment.